Your search keyword '"Mamiko Nishiuchi"' showing total 118 results

1. Development of carbon thin film for Laser‐driven heavy ion acceleration using a XeCl excimer laser

Author

Hironao Sakaki, Mitsuhiro Kusaba, Fumitaka Nigo, Mamiko Nishiuchi, Hiromitsu Kiriyama, Kotaro Kondo, Shuji Sakabe, and Masaki Hashida

Subjects

Materials science, Excimer laser, Computer Networks and Communications, business.industry, Applied Mathematics, medicine.medical_treatment, General Physics and Astronomy, chemistry.chemical_element, Laser, law.invention, Acceleration, chemistry, law, Signal Processing, medicine, Optoelectronics, Heavy ion, Electrical and Electronic Engineering, Thin film, business, Carbon, Polyimide

Published

2020

2. Development of Carbon Thin Film for Laser-driven Heavy Ion Acceleration Using a XeCl Excimer Laser

Author

Masaki Hashida, Hiromitsu Kiriyama, Kotaro Kondo, Shuji Sakabe, Mamiko Nishiuchi, Mitsuhiro Kusaba, Fumitaka Nigo, and Hironao Sakaki

Subjects

Materials science, Excimer laser, business.industry, medicine.medical_treatment, chemistry.chemical_element, Laser, law.invention, Acceleration, chemistry, law, medicine, Optoelectronics, Heavy ion, Electrical and Electronic Engineering, Thin film, business, Carbon

Published

2020

3. Self-supporting tetrahedral amorphous carbon films consisting of multilayered structure prepared using filtered arc deposition

Author

Mamiko Nishiuchi, Shinsuke Kunitsugu, Hirofumi Takikawa, Satoru Kaneko, Toru Harigai, Kiminori Kondo, Yu Miyamoto, Masafumi Yamano, Yoshiyuki Suda, Takeshi Kawano, Tsuyoshi Tanimoto, and Hironao Sakaki

Subjects

010302 applied physics, Materials science, Metals and Alloys, Fibroin, 02 engineering and technology, Surfaces and Interfaces, Substrate (electronics), 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Carbon film, Amorphous carbon, law, 0103 physical sciences, Materials Chemistry, Irradiation, Composite material, 0210 nano-technology, Dissolution, Deposition (law)

Abstract

Self-supporting 110-nm-thick tetrahedral amorphous carbon (ta-C) films with a multilayered structure were fabricated as a carbon film target for the laser-driven ion acceleration. The self-supporting ta-C films consisted of three layers with the thicknesses of 35 nm, 40 nm, and 35 nm thick, and the film density of 3.0 g/cm3, 2.7 g/cm3, and 3.0 g/cm3, respectively. The multilayered ta-C film was fabricated using the T-shape filtered arc deposition method on a Si substrate coated water-soluble material. Silk fibroin and dextran were used as the water-soluble material. The water-soluble material formed between a ta-C film and a Si substrate was dissolved, and then, the ta-C film released from the substrate. Thick single-layer ta-C films partially peeled off on the water-soluble material and broke during the dissolving process. Self-supporting ta-C films were obtained by scooping the released ta-C film on a perforated substrate. The laser was irradiated on the self-supporting ta-C films, and the ta-C film with a higher film thickness and/or film density showed a higher laser irradiation tolerance.

Published

2019

4. Enhancement of pre-pulse and picosecond pedestal contrast of the petawatt J-KAREN-P laser

Author

Yasuhiro Miyasaka, Alexander S. Pirozhkov, H. Sasao, Mamiko Nishiuchi, Hiromitsu Kiriyama, Kotaro Kondo, Akira Kon, Masaki Kando, Koichi Ogura, Akito Sagisaka, Yuji Fukuda, and Nicholas P. Dover

Subjects

Orders of magnitude (power), Chirped pulse amplification, Nuclear and High Energy Physics, Materials science, business.industry, media_common.quotation_subject, Laser, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Pulse (physics), law.invention, Optics, Pedestal, Nuclear Energy and Engineering, law, Picosecond, Temporal contrast, Contrast (vision), business, media_common

Abstract

We have experimentally improved the temporal contrast of the petawatt J-KAREN-P laser facility. We have investigated how the generation of pre-pulses by post-pulses changes due to the temporal overlap between the stretched pulse and the post-pulse in a chirped-pulse amplification system. We have shown that the time at which the pre-pulse is generated by the post-pulse and its shape are related to the time difference between the stretched main pulse and the post-pulse. With this investigation, we have found and identified the origins of the pre-pulses and have demonstrated the removal of most pre-pulses by eliminating the post-pulse with wedged optics. We have also demonstrated the impact of stretcher optics on the picosecond pedestal. We have realized orders of magnitude enhancement of the pedestal by improving the optical quality of a key component in the stretcher.

Published

2021

5. Improvement of the temporal contrast of pre-pulses by post-pulses in a petawatt J-KAREN-P laser facility

Author

Yasuhiro Miyasaka, Karl Zeil, Kiminori Kondo, Kotaro Kondo, Mamiko Nishiuchi, Stefan Bock, Masaki Kando, Tim Ziegler, Nicholas P. Dover, Akito Sagisaka, Yuji Fukuda, Tomas Puschel, Hiromitsu Kiriyama, Ulrich Schramm, Akira Kon, Koichi Ogura, and Alexander S. Pirozhkov

Subjects

Materials science, Optics, law, business.industry, Temporal contrast, Laser, business, Fresnel diffraction, Laser beams, law.invention

Abstract

We demonstrate the removal of the pre-pulses based on the exploration of the generation of pre-pulses by post-pulses through the nonlinear process associated with the B-integral in the laser chain of the petawatt facility J-KAREN-P.

Published

2021

6. Petawatt Femtosecond Laser Pulses from Titanium-Doped Sapphire Crystal

Author

Ulrich Schramm, Tim Ziegler, Mamiko Nishiuchi, Masaki Kando, Kiminori Kondo, Alexander S. Pirozhkov, Koichi Ogura, Kotaro Kondo, Akito Sagisaka, Karl Zeil, Yasuhiro Miyasaka, Kai Huang, Thomas Püschel, Nobuhiko Nakanii, Stefan Bock, Timur Zh. Esirkepov, Yuji Fukuda, James K. Koga, Hironao Sakaki, Akira Kon, Nicholas P. Dover, and Hiromitsu Kiriyama

Subjects

Chirped pulse amplification, Materials science, Photon, ultra-fast laser, General Chemical Engineering, Physics::Optics, Ti:sapphire laser, 01 natural sciences, law.invention, 010309 optics, Inorganic Chemistry, law, 0103 physical sciences, lcsh:QD901-999, General Materials Science, 010306 general physics, chirped-pulse amplification, ultra-high intensity laser, business.industry, Condensed Matter Physics, Laser, Charged particle, Femtosecond, Sapphire, Optoelectronics, Laser beam quality, lcsh:Crystallography, high field science, business

Abstract

Ultra-high intensity femtosecond lasers have now become excellent scientific tools for the study of extreme material states in small-scale laboratory settings. The invention of chirped-pulse amplification (CPA) combined with titanium-doped sapphire (Ti:sapphire) crystals have enabled realization of such lasers. The pursuit of ultra-high intensity science and applications is driving worldwide development of new capabilities. A petawatt (PW = 1015 W), femtosecond (fs = 10&minus, 15 s), repetitive (0.1 Hz), high beam quality J-KAREN-P (Japan Kansai Advanced Relativistic ENgineering Petawatt) Ti:sapphire CPA laser has been recently constructed and used for accelerating charged particles (ions and electrons) and generating coherent and incoherent ultra-short-pulse, high-energy photon (X-ray) radiation. Ultra-high intensities of 1022 W/cm2 with high temporal contrast of 10&minus, 12 and a minimal number of pre-pulses on target has been demonstrated with the J-KAREN-P laser. Here, worldwide ultra-high intensity laser development is summarized, the output performance and spatiotemporal quality improvement of the J-KAREN-P laser are described, and some experimental results are briefly introduced.

Published

2020

7. Dynamics of laser-driven heavy-ion acceleration clarified by ion charge states

Author

Masaki Kando, Karl Zeil, E. J. Ditter, Tim Ziegler, Ulrich Schramm, James K. Koga, Akito Sagisaka, Hiromitsu Kiriyama, T. A. Pikuz, M. A. Alkhimova, G. Hicks, Yasuhiko Sentoku, N. Iwata, Zulfikar Najmudin, H. Sakaki, Kiminori Kondo, Alexander S. Pirozhkov, Masayasu Hata, Hazel Lowe, Ko. Kondo, Mamiko Nishiuchi, T. Miyahara, Nicholas P. Dover, Yukinobu Watanabe, O. C. Ettlinger, and A. Ya. Faenov

Subjects

Acceleration, Materials science, Physics::Plasma Physics, law, Dynamics (mechanics), Heavy ion, Atomic physics, Laser, law.invention, Ion

Abstract

Motivated by the development of next-generation heavy-ion sources, we have investigated the ionization and acceleration dynamics of an ultraintense laser-driven high- Z silver target, experimentally, numerically, and analytically. Using a novel ion measurement technique allowing us to uniquely identify silver ions, we experimentally demonstrate generation of highly charged silver ions ( Z ∗ = 45 + 2 − 2 ) with energies of > 20 MeV/nucleon ( > 2.2 GeV) from submicron silver targets driven by a laser with intensity 5 × 10 21 W / cm 2 , with increasing ion energy and charge state for decreasing target thickness. We show that although target pre-expansion by the unavoidable rising edge of state-of-the-art high-power lasers can limit proton energies, it is advantageous for heavy-ion acceleration. Two-dimensional particle-in-cell simulations show that the Joule heating in the target bulk results in a high temperature ( ∼ 10 keV ) solid density plasma, leading to the generation of high flux highly charged ions ( Z ∗ = 40 + 2 − 2 , ≳ 10 MeV / nucleon ) via electron collisional ionization, which are extracted and accelerated with a small divergence by an extreme sheath field at the target rear. However, with reduced target thickness this favorable acceleration is degraded due to the target deformation via laser hole boring, which accompanies higher energy ions with higher charge states but in an uncontrollable manner. Our elucidation of the fundamental processes of high-intensity laser-driven ionization and ion acceleration provides a path for improving the control and parameters of laser-driven heavy-ion sources, a key component for next-generation heavy-ion accelerators.

Published

2020

8. Experimental investigation on the temporal contrast of pre-pulses by post-pulses in a petawatt laser facility

Author

Mamiko Nishiuchi, Yasuhiro Miyasaka, Alexander S. Pirozhkov, Koichi Ogura, Masaki Kando, Yuji Fukuda, Hiromitsu Kiriyama, Kiminori Kondo, and Akito Sagisaka

Subjects

Total internal reflection, Materials science, business.industry, 02 engineering and technology, Fresnel equations, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, Pulse (physics), law.invention, 010309 optics, Nonlinear system, Optics, law, Time difference, 0103 physical sciences, Temporal contrast, 0210 nano-technology, business, Self-phase modulation

Abstract

We experimentally explore the generation of pre-pulses by post-pulses, created through internal reflection in the optical components, by the nonlinear process associated with the B-integral in the laser chain of the petawatt (PW) facility J-KAREN-P. At a large time delay between the main and the post-pulses, we have found that the pre-pulses are not generated from their counterpart post-pulses at an identical time difference before the main pulse, and the temporal shapes of the pre-pulses are greatly distorted asymmetrically. We have also observed that the peak intensities of the pre-pulses are drastically suppressed compared to the expected value at a small time delay. We briefly describe the origins of the pre-pulses generated by the post-pulses and demonstrate the removal of the pre-pulses by switching to optical components with a small wedge angle at our PW laser facility.

Published

2020

9. Effect of Small Focus on Electron Heating and Proton Acceleration in Ultrarelativistic Laser-Solid Interactions

Author

Mamiko Nishiuchi, James K. Koga, Yasuhiko Sentoku, H. Sakaki, Masaki Kando, Yukinobu Watanabe, Kiminori Kondo, T. A. Pikuz, Ko. Kondo, M. A. Alkhimova, Masayasu Hata, Hiromitsu Kiriyama, Alexander S. Pirozhkov, T. Miyahara, Akito Sagisaka, Nicholas P. Dover, A. Ya. Faenov, and N. Iwata

Subjects

Physics, General Physics, Scaling law, 02 Physical Sciences, Proton, General Physics and Astronomy, Laser, 01 natural sciences, 09 Engineering, law.invention, Acceleration, law, Laser intensity, 0103 physical sciences, Cathode ray, Electron heating, Atomic physics, 010306 general physics, Scaling, 01 Mathematical Sciences

Abstract

Acceleration of particles from the interaction of ultraintense laser pulses up to $5\ifmmode\times\else\texttimes\fi{}{10}^{21}\text{ }\text{ }\mathrm{W}\text{ }{\mathrm{cm}}^{\ensuremath{-}2}$ with thin foils is investigated experimentally. The electron beam parameters varied with decreasing spot size, not just laser intensity, resulting in reduced temperatures and divergence. In particular, the temperature saturated due to insufficient acceleration length in the tightly focused spot. These dependencies affected the sheath-accelerated protons, which showed poorer spot-size scaling than widely used scaling laws. It is therefore shown that maximizing laser intensity by using very small foci has reducing returns for some applications.

Published

2020

10. Towards a novel laser-driven method of exotic nuclei extraction−acceleration for fundamental physics and technology

Author

Sv Bulanov, Yukinobu Watanabe, M. Kanasaki, I. Yu. Skobelev, T. A. Pikuz, R. Orlandi, Koichi Ogura, Kiminori Kondo, Kenichi Imai, S. Nagamiya, Katsuhisa Nishio, Yuji Fukuda, A. Ya. Faenov, Hiromitsu Kiriyama, Tomoya Yamauchi, Akito Sagisaka, Hiroyuki Koura, T. Zh. Esirkepov, Hironao Sakaki, Alexander S. Pirozhkov, Mamiko Nishiuchi, and Masaki Kando

Subjects

Physics, Nuclear reaction, Physics and Astronomy (miscellaneous), Ion beam, Nuclear Theory, Plasma, Condensed Matter Physics, Laser, 01 natural sciences, 010305 fluids & plasmas, law.invention, Nuclear physics, Acceleration, law, 0103 physical sciences, Fundamental physics, Femtosecond, Atomic physics, Nuclear Experiment, 010306 general physics

Abstract

A combination of a petawatt laser and nuclear physics techniques can crucially facilitate the measurement of exotic nuclei properties. With numerical simulations and laser-driven experiments we show prospects for the Laser-driven Exotic Nuclei extraction–acceleration method proposed in [M. Nishiuchi et al., Phys, Plasmas 22, 033107 (2015)]: a femtosecond petawatt laser, irradiating a target bombarded by an external ion beam, extracts from the target and accelerates to few GeV highly charged short-lived heavy exotic nuclei created in the target via nuclear reactions.

Published

2016

11. Demonstration of repetitive energetic proton generation by ultra-intense laser interaction with a tape target

Author

Masayasu Hata, James K. Koga, Nicholas P. Dover, A. Ya. Faenov, G. Hicks, Alexander S. Pirozhkov, Mamiko Nishiuchi, Yasuhiko Sentoku, T. A. Pikuz, Ko. Kondo, Masaki Kando, E. J. Ditter, H. Sakaki, Akito Sagisaka, O. C. Ettlinger, Yukinobu Watanabe, T. Miyahara, Hiromitsu Kiriyama, M. A. Alkhimova, Kotaro Kondo, Zulfikar Najmudin, Tim Ziegler, Ulrich Schramm, N. Iwata, Karl Zeil, and Hazel Lowe

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, Proton, business.industry, Laser, 01 natural sciences, 010305 fluids & plasmas, Ion, Power (physics), law.invention, Acceleration, Optics, law, 0103 physical sciences, Irradiation, 010306 general physics, business, Scaling, Energy (signal processing)

Abstract

High power laser systems are an attractive driver for compact energetic ion sources. We demonstrate repetitive acceleration at 0.1 Hz of proton beams up to 40 MeV from a reeled tape target irradiated by ultra-high intensities up to 5 × 1021 Wcm − 2 and laser energies ≈ 15 J using the J-KAREN-P laser system. We investigate the stability of the source and its behaviour with laser spot focal size. We compare the scaling of proton energy with laser energy to a recently developed analytical model, and also demonstrate that it is possible to reach energies up to 50 MeV on a single shot with a lower laser energy ≈ 10 J by using a thinner target, motivating development of high repetition targetry suitable for thinner targets.

Published

2020

12. High-Intensity Laser-Driven Oxygen Source from CW Laser-Heated Titanium Tape Targets

Author

Kotaro Kondo, Hazel Lowe, Tim Ziegler, Zulfikar Najmudin, Karl Zeil, Nicholas P. Dover, Mamiko Nishiuchi, Kiminori Kondo, Masaki Kando, G. Hicks, O. C. Ettlinger, Hiromitsu Kiriyama, Yukinobu Watanabe, Ulrich Schramm, Hironao Sakaki, Emma Ditter, and T. Miyahara

Subjects

Materials science, Proton, General Chemical Engineering, chemistry.chemical_element, 01 natural sciences, Oxygen, 010305 fluids & plasmas, law.invention, Inorganic Chemistry, Acceleration, law, 0103 physical sciences, lcsh:QD901-999, General Materials Science, high-power laser, laser-driven heavy ion acceleration, 010306 general physics, CW laser heating, 0306 Physical Chemistry (incl. Structural), oxygen ion source, business.industry, Ti:sapphire laser, surface treatment, Condensed Matter Physics, Laser, Ti Sapphire laser, chemistry, Optoelectronics, lcsh:Crystallography, business, Layer (electronics), Intensity (heat transfer), Titanium

Abstract

The interaction of high-intensity laser pulses with solid targets can be used as a highly charged, energetic heavy ion source. Normally, intrinsic contaminants on the target surface suppress the performance of heavy ion acceleration from a high-intensity laser&ndash, target interaction, resulting in preferential proton acceleration. Here, we demonstrate that CW laser heating of 5 &micro, m titanium tape targets can remove contaminant hydrocarbons in order to expose a thin oxide layer on the metal surface, ideal for the generation of energetic oxygen beams. This is demonstrated by irradiating the heated targets with a PW class high-power laser at an intensity of 5 &times, 1021 W/cm2, showing enhanced acceleration of oxygen ions with a non-thermal-like distribution. Our new scheme using a CW laser-heated Ti tape target is promising for use as a moderate repetition energetic oxygen ion source for future applications.

Published

2020

13. Ion species discrimination method by linear energy transfer measurement in Fujifilm BAS-SR imaging plate

Author

Ko. Kondo, Ki. Kondo, Ke. Kondo, Mamiko Nishiuchi, S. Manabe, Yukinobu Watanabe, Nicholas P. Dover, Yoshiyuki Iwata, T. Miyahara, Tatsuhiko Miyatake, Keiichiro Shiokawa, and H. Sakaki

Subjects

010302 applied physics, Range (particle radiation), Materials science, Monte Carlo method, Linear energy transfer, Phosphor, Laser, 01 natural sciences, 010305 fluids & plasmas, Ion, law.invention, law, 0103 physical sciences, Calibration, Atomic number, Atomic physics, Instrumentation

Abstract

We have developed a novel discrimination methodology to identify ions in multispecies beams with similar charge-to-mass ratios, but different atomic numbers. After an initial separation by charge-to-mass ratios using co-linear electric and magnetic fields, individual ions can be discriminated by considering the linear energy transfer of ions irradiating a stimulable phosphor plate (Fujifilm imaging plate) by comparison with the Monte Carlo calculation. We apply the method to energetic multispecies laser-driven ion beams and use it to identify silver ions produced by the interaction between a high contrast, high intensity laser pulse; and a sub-micrometer silver foil target. We also show that this method can be used to calibrate the imaging plate for arbitrary ion species in the range of Z ≥ 6 with dE/dx > 0.1 MeV/μm without requiring individual calibration.

Published

2020

14. Status and progress of the J-KAREN-P high intensity laser system at QST

Author

Akito Sagisaka, Yasuhiro Miyasaka, Kai Huang, Nobuhiko Nakanii, Hiromitsu Kiriyama, Hazel Lowe, Hironao Sakaki, Akira Kon, Alexander S. Pirozhkov, Koichi Ogura, Mamiko Nishiuchi, Kotaro Kondo, Nicholas P. Dover, Masaki Kando, Kiminori Kondo, Yuji Fukuda, Timur Zh. Esirkepov, and James K. Koga

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, business.industry, Preamplifier, Parabolic reflector, Physics::Optics, Laser, 01 natural sciences, 010305 fluids & plasmas, Pulse (physics), law.invention, Optics, law, 0103 physical sciences, Femtosecond, Sapphire, Temporal contrast, 010306 general physics, business, Adaptive optics

Abstract

We report on femtosecond petawatt laser pulses at 0.1 Hz that combine both Ti:sapphire chirped-pulse amplification (CPA) and optical parametric CPA (OPCPA) techniques. High temporal contrast of 1012 prior to the main pulse of 10 J output energy has been demonstrated with a cleaned high-energy seeded low gain OPCPA preamplifier. Intensities as high as 1022 W∕cm2 on target have been achieved by focusing a wave-front corrected 0.3 PW laser by adaptive optics and reflective-type optics with an f ∕1.3 off-axis parabolic mirror. We describe the origins of the pre-pulses generated by the post-pulses through non-linear processes and demonstrate the removal of the pre-pulses by switching to optical components with a small wedge angle at our petawatt laser facility. We also briefly introduce some experimental results. Exploration of new regimes in high field science is now possible with the unprecedented laser intensity levels of the J-KAREN-P laser.

Published

2020

15. Single-Shot Measurement of Post-Pulse-Generated Pre-Pulse in High-Power Laser Systems

Author

Tim Ziegler, Stefan Bock, Hiromitsu Kiriyama, Mamiko Nishiuchi, Masaki Kando, Karl Zeil, Kiminori Kondo, Akira Kon, Thomas Pueschel, and Ulrich Schramm

Subjects

Materials science, General Chemical Engineering, B-integral, 01 natural sciences, law.invention, 010309 optics, Inorganic Chemistry, laser pulse contrast, high-intensity lasers, Optics, law, 0103 physical sciences, lcsh:QD901-999, General Materials Science, 010306 general physics, B Integral, business.industry, Amplifier, Condensed Matter Physics, Laser, Power (physics), Pulse (physics), Nonlinear system, Interferometry, lcsh:Crystallography, business, Energy (signal processing)

Abstract

In this study, a detailed investigation of the dynamics of the generation of pre-pulse by post-pulses is presented, using single-shot self-referenced spectral interferometry (SRSI). The capability of SRSI in terms of the single-shot measurement of the temporal contrast of high-power laser systems has been experimentally demonstrated. The results confirm that the energy levels of the pre-pulses increase proportional to the square of the B-integral parametrizing the nonlinearity of the amplifier chain.

Published

2020

16. High-contrast high-intensity repetitive petawatt laser

Author

Kotaro Kondo, Kiminori Kondo, James K. Koga, Hiromitsu Kiriyama, Akito Sagisaka, Alexander S. Pirozhkov, Yasuhiro Miyasaka, Hironao Sakaki, Koichi Ogura, Timur Zh. Esirkepov, Michiaki Mori, Nicholas P. Dover, Mamiko Nishiuchi, Masaki Kando, and Yuji Fukuda

Subjects

Materials science, business.industry, Parabolic reflector, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, Power (physics), Pulse (physics), 010309 optics, Optics, law, Pulse compression, 0103 physical sciences, Sapphire, 010306 general physics, business, Adaptive optics, Energy (signal processing)

Abstract

We report the generation of 63 J of broadband pulse energies at 0.1 Hz from the J-KAREN-P laser, which is based on an OPCPA/Ti:sapphire hybrid architecture. Pulse compression down to 30 fs indicates a peak power of over 1 PW. High temporal contrast of 1012 prior to the main pulse has been demonstrated with 10 J output energy. High intensities of 1022 W/cm2 on target by focusing a 0.3 PW laser with an f/1.3 off-axis parabolic mirror have been achieved. Fundamental processes of laser matter interaction at over 1022 W/cm2 intensities belong to a new branch of science that will be the principal research task of our infrastructure.

Published

2018

17. Ultra-intense X-Ray Radiation Photopumping of Exotic States of Matter by Relativistic Laser–Plasma in the Radiation-Dominated Kinetic Regime (RDKR)

Author

A. Ya. Faenov, Noboru Hasegawa, Paul McKenna, Nicola Booth, Masato Kanasaki, Y. Fukuda, Kotaro Kondo, Tetsuya Kawachi, R. Kodama, Alexander Andreev, Alexei Zhidkov, Akito Sagisaka, James Colgan, Alexander S. Pirozhkov, Eleanor Tubman, Koichi Ogura, James Green, Nigel Woolsey, H. Sakaki, R. J. Dance, G.J. Tallents, I. Yu. Skobelev, Tatiana Pikuz, S. A. Pikuz, Masaharu Nishikino, Joseph Abdallah, Masaki Kando, N. M. H. Butler, Christopher D. Gregory, Mamiko Nishiuchi, and M. Z. Alkhimova

Subjects

High Energy Density Matter, Materials science, Plasma parameters, law, Femtosecond, State of matter, Physics::Optics, Plasma, Atomic physics, Warm dense matter, Radiation, Laser, law.invention

Abstract

In the present report, we discussed our recent results concerning the investigations of high energy density matter. By using of high-resolution X-ray spectroscopic measurements and kinetic simulations, we demonstrate that the energy of femtosecond laser pulses is efficiently converted to X-ray radiation and produces exotic states in solid density plasma regions. It is shown that exotic hollow multicharged ions states can be obtained and studied not only by ultra-intense X-ray radiation of XFEL lasers, but also upon using optical laser technology. We have concluded that observable features of the hollow-ion spectra are sensitive to such plasma parameters as density, temperature, hot-electron fraction, and intensity of the X-ray pumping radiation and could be used for effective diagnostics of warm dense matter parameters.

Published

2018

18. Research on Laser Acceleration and Coherent X-Ray Generation Using J-KAREN-P Laser

Author

Koichi Ogura, Yukio Hayashi, James K. Koga, T. Zh. Esirkepov, T. A. Pikuz, Akito Sagisaka, Kai Huang, Sv Bulanov, K. Nishitani, Alexander S. Pirozhkov, H. Sakaki, K. Sekiguchi, Hideyuki Kotaki, Masaki Kando, Kiminori Kondo, Y. Fukuda, Hiromitsu Kiriyama, Nicholas P. Dover, Mamiko Nishiuchi, A. Ya. Faenov, Nobuhiko Nakanii, and Akira Kon

Subjects

Materials science, business.industry, Mechanical engineering, Laser, Ion, Pulse (physics), law.invention, Acceleration, Optics, Upgrade, law, Sapphire, Harmonic, Irradiation, business

Abstract

We present the progress on the upgrade status of the J-KAREN-P , which is a Ti: Sapphire laser aiming at the intensity of 1022 W/cm2 at the repetition rate of 0.1 Hz. The upgrade includes two pilot experiments in order to show the laser performance on target. The first experiment is to generate high-energy ions from thin-foil target. The second experiment is the high-order harmonic at a relativistic intensity. Currently, laser acceleration of protons is being tested and we have obtained 32 MeV protons from a 5-µm stainless steel target irradiated by a 14-J, 30-fs laser pulse. In addition, a joint program toward compact X-ray free-electron laser based on laser electron acceleration is presented briefly and the corresponding J-KAREN-P work is presented.

Published

2018

19. Status of ion sources at the national institutes for quantum and radiological science and technology (QST)

Author

Ken-ichi Yoshida, M. Ichikawa, Mieko Kashiwagi, Satoshi Kurashima, Takeru Ohkubo, Takashi Fujita, Mamiko Nishiuchi, Satoru Hojo, Atsuya Chiba, Hironao Sakaki, T. Wakui, Kotaro Kondo, Akinori Sugiura, Ken Katagiri, Atsushi Kitagawa, Atsushi Kojima, Junichi Hiratsuka, Hiroyuki Tobari, Yasuyuki Ishii, Hirotsugu Kashiwagi, Kazuhiro Watanabe, Yoshimi Hirano, Masayuki Muramatsu, Yuichi Saitoh, Keishi Sakamoto, Nicholas P. Dover, Naotaka Umeda, and K. Yamada

Subjects

Physics, law, Fusion power, Laser, Science, technology and society, Engineering physics, Quantum, Ion source, Electron cyclotron resonance, law.invention, Ion

Abstract

The National Institutes for Quantum and Radiological Science and Technology (QST) manages various types of ion sources for research and development in the fields of life sciences, medical and industrial applications, and fusion energy science. The QST is currently developing on electron cyclotron resonance ion sources, negative ion sources (ion sources for fusion and for tandem accelerators), ion sources for radioactive beams, laser ion sources, and miscellaneous ion sources. Its intra- and inter-institutional collaborations make QST a promising platform for future ion source technologies.

Published

2018

20. Acceleration of the iron nuclei by light

Author

Mamiko Nishiuchi and Hironao Sakaki

Subjects

Nuclear physics, Physics, Acceleration, Nuclear Energy and Engineering, Nucleosynthesis, law, Laser, law.invention

Published

2015

21. High-Contrast, High-Intensity Petawatt-Class Laser and Applications

Author

Mamiko Nishiuchi, Tomas Mocek, Masaki Kando, Antonio Lucianetti, Sergei V. Bulanov, Hideyuki Kotaki, M. Kanasaki, Koichi Ogura, David Vojna, Venkatesan Jambunathan, Timur Zh. Esirkepov, Kiminori Kondo, Magdalena Sawicka-Chyla, Hironao Sakaki, Michiaki Mori, Ondrej Slezak, Alexander S. Pirozhkov, Akito Sagisaka, Hiromitsu Kiriyama, Akira Kon, Yuji Fukuda, Yukio Hayashi, James Koga, and Paul R. Bolton

Subjects

Physics, Distributed feedback laser, business.industry, Far-infrared laser, Physics::Optics, Saturable absorption, Laser pumping, Laser, Atomic and Molecular Physics, and Optics, law.invention, Laser linewidth, Optics, law, Optoelectronics, Laser power scaling, Laser beam quality, Electrical and Electronic Engineering, business

Abstract

A high-contrast high-intensity petawatt-class Ti:sapphire chirped-pulse amplification laser has been developed for research on high field science. A saturable absorber and a low-gain optical parametric chirped-pulse amplification preamplifier in the front-end have improved the temporal contrast in the system to ∼ $2 \times 10^{12}$ on the subnanosecond time scale at the ∼70 TW power level. In addition to the high-contrast broadband high-energy output from the final amplifier has been achieved with a flat-top spatial profile with a filling factor of ∼70%. This is the result of pump beam spatial profile homogenization with diffractive optical elements. The system produces the uncompressed output pulse energy of 29 J, indicating the capability for reaching a peak power of ∼600 TW. We discuss in detail the design, performance, and characterization of the laser including output power, pulse duration, and spatiotemporal beam quality. We also describe the on-going upgrade of the laser system and some applications for the laser in relativistic dominated laser–matter interactions.

Published

2015

22. The effect of laser contrast on generation of highly charged Fe ions by ultra-intense femtosecond laser pulses

Author

Alexander Andreev, T. Miyahara, Anatoly Ya. Faenov, Kotaro Kondo, Tatiana Pikuz, Alexander S. Pirozhkov, Mamiko Nishiuchi, M. A. Alkhimova, S. A. Pikuz, Masaki Kando, Yukinobu Watanabe, K. Nishitani, Hironao Sakaki, K. Ogura, A. Sagisaka, Nicholas P. Dover, Yuji Fukuda, Hiromitsu Kiriyama, Igor Yu. Skobelev, Ruosuke Kodama, and Kiminori Kondo

Subjects

01.03. Fizikai tudományok, Quantum optics, Materials science, Physics and Astronomy (miscellaneous), General Engineering, Physics::Optics, General Physics and Astronomy, Plasma, Laser, 01 natural sciences, 010305 fluids & plasmas, Pulse (physics), law.invention, Ion, law, Ionization, 0103 physical sciences, Femtosecond, Electron temperature, Atomic physics, 010306 general physics

Abstract

Experimental studies on the formation of highly charged ions of medium-Z elements using femtosecond laser pulses with different contrast levels were carried out. Multiply charged Fe ions were generated by laser pulses with 35 fs duration and an intensity exceeding 1021 W/cm2. Using high-resolution X-ray spectroscopic methods, bulk electron temperature of the generated plasma has been identified. It is shown that the presence of a laser pre-pulse at a contrast level of 105–106 with respect to the main pulse drastically decreases the degree of Fe ionization. We conclude that an effective source of energetic, multiply charged moderate and high-Z ions based on femtosecond laser–plasma interactions can be created only using laser pulses of ultra-high contrast.

Published

2017

23. High contrast high intensity petawatt J-KAREN-P laser facility at QST

Author

K. Nishitani, Hironao Sakaki, T. Miyahara, Tatiana Pikuz, Nicholas P. Dover, James K. Koga, Hiromitsu Kiriyama, Kotaro Kondo, Koichi Ogura, Mamiko Nishiuchi, Alexander S. Pirozhkov, Sergei V. Bulanov, Masaki Kando, Anatoly Ya. Faenov, Akito Sagisaka, Yuji Fukuda, M. A. Alkhimova, Yukinobu Watanabe, and Kiminori Kondo

Subjects

010302 applied physics, Physics, Proton, business.industry, Pulse duration, Electron, Injector, Laser, 01 natural sciences, law.invention, Relativistic particle, Acceleration, Optics, Beamline, law, 0103 physical sciences, 010306 general physics, business

Abstract

We report on the J-KAREN-P laser facility at QST, which can provide PW peak power at 0.1 Hz on target. The system can deliver short pulses with an energy of 30 J and pulse duration of 30 fs after compression with a contrast level of better than 1012. Such performance in high field science will give rise to the birth of new applications and breakthroughs, which include relativistic particle acceleration, bright x-ray source generation, and nuclear activation. The current achieved laser intensity on target is up to > 9x1021 Wcm-2 with an energy of ~9 J on target. The interaction with a 3 to 5- μm stainless steel tape target provides us electrons with a typical temperature of more than 10 MeV and energetic proton beams with typical maximum energies of > 40 MeV with good reproducibility. The protons are accelerated in the Target Normal Sheath Acceleration regime, which is suitable for many applications including as an injector into a beamline for medical use, which is one of our objectives.

Published

2017

24. Observation of the inhomogeneous spatial distribution of MeV ions accelerated by the hydrodynamic ambipolar expansion of clusters

Author

M. Kanasaki, Ryutaro Matsui, Kunihiro Morishima, Yukinobu Watanabe, Domenico Doria, Yuji Fukuda, Yasuaki Kishimoto, Marco Borghesi, Mamiko Nishiuchi, Akira Sugiyama, Anatoly Ya. Faenov, Masaki Kando, Hironao Sakaki, Satoshi Jinno, Tatiana Pikuz, Hiromitsu Kiriyama, Satyabrata Kar, Kiminori Kondo, Tomoya Yamauchi, Ashley G. Smyth, Keiji Oda, Aaron Alejo, and C. Scullion

Subjects

Physics, Range (particle radiation), Radiation, Ion beam, Physics::Instrumentation and Detectors, Ambipolar diffusion, Coulomb explosion, Plasma, Laser, Ion, law.invention, Etching (microfabrication), law, Physics::Accelerator Physics, Atomic physics, Instrumentation

Abstract

An inhomogeneous spatial distribution of laser accelerated carbon/oxygen ions produced via the hydrodynamic ambipolar expansion of CO2 clusters has been measured by using CR-39 detectors. An inhomogeneous etch pits spatial distribution has appeared on the etched CR-39 detector installed on the laser propagation direction, while homogeneous ones are appeared on those installed at 45°and 90°from the laser propagation direction. From the range of ions in CR-39 obtained by using the multi-step etching technique, the averaged energies of carbon/oxygen ions for all directions are determined as 0.78 ± 0.09 MeV/n. The number of ions in the laser propagation direction is about 1.5 times larger than those in other directions. The inhomogeneous etch pits spatial distribution in the laser propagation direction could originate from an ion beam collimation and modulation by the effect of electromagnetic structures created in the laser plasma.

Published

2015

25. Ultra-Intense, High Spatio-Temporal Quality Petawatt-Class Laser System and Applications

Author

Hideyuki Kotaki, Mamiko Nishiuchi, Sergei V. Bulanov, Mitsuru Yamagiwa, Masayuki Suzuki, Masaki Kando, Akira Sugiyama, Shuji Kondo, Shuhei Kanazawa, Timur Zh. Esirkepov, Hirofumi Kan, Koichi Ogura, Kiminori Kondo, Takuya Shimomura, Yuji Fukuda, Hajime Okada, Shinichi Matsuoka, Izuru Daito, Paul R. Bolton, Yoshiki Nakai, Atsushi Kosuge, Hiromitsu Kiriyama, Yukio Hayashi, Michiaki Mori, Keisuke Nagashima, Manabu Tanoue, and Alexander S. Pirozhkov

Subjects

Chirped pulse amplification, Ti:sapphire laser, Physics::Optics, lcsh:Technology, law.invention, lcsh:Chemistry, Laser linewidth, Optics, law, General Materials Science, Physics::Atomic Physics, Laser power scaling, chirped-pulse amplification, lcsh:QH301-705.5, Instrumentation, Fluid Flow and Transfer Processes, Physics, Distributed feedback laser, lcsh:T, business.industry, Process Chemistry and Technology, Far-infrared laser, General Engineering, ultra-intense laser, Injection seeder, Laser, lcsh:QC1-999, Computer Science Applications, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, high field science, Laser beam quality, lcsh:Engineering (General). Civil engineering (General), business, lcsh:Physics

Abstract

This paper reviews techniques for improving the temporal contrast and spatial beam quality in an ultra-intense laser system that is based on chirped-pulse amplification (CPA). We describe the design, performance, and characterization of our laser system, which has the potential for achieving a peak power of 600 TW. We also describe applications of the laser system in the relativistically dominant regime of laser-matter interactions and discuss a compact, high efficiency diode-pumped laser system.

Published

2013

26. A high energy component of the intense laser-accelerated proton beams detected by stacked CR-39

Author

Atsuto Hattori, Koichi Ogura, Mamiko Nishiuchi, Hironao Sakaki, Satoshi Jinno, Tomoya Yamauchi, Kiminori Kondo, Masato Kanasaki, Keiji Oda, Akifumi Yogo, and Yuji Fukuda

Subjects

Radiation, Materials science, Proton, Physics::Instrumentation and Detectors, business.industry, Laser, law.invention, Particle acceleration, chemistry.chemical_compound, Optics, chemistry, law, Etching, Sapphire, Physics::Accelerator Physics, Irradiation, business, CR-39, Instrumentation, Layer (electronics)

Abstract

A precise measurement has been made utilizing a stacked CR-39 detectors unit for laser-accelerated high intensity protons. The proton beams are derived from a thin polyimide target exposed to an high intense Ti:sapphire laser 8 J energy and 40 fs duration. The sample sets, stacked radiochromic film and CR-39 detectors covered with 13 μm aluminum filter, are irradiated under vacuum condition. By analyzing the etch pits on the last layer of CR-39 which recorded etchable tracks, the energies of each proton in high-energy region are evaluated more precisely than in the past. The residual ranges for each particle in the last layer has been obtained from etch pit growth curves with multi-step etching technique. The maximum energy of proton is 14.39 ± 0.05 MeV. This method allows us to measure the maximum energy of proton precisely, which can obtain high energy resolution with uncertainty Δ E = 0.1 MeV in the laser-driven particle acceleration experiment.

Published

2013

27. Development of laser-driven quasi-monoenergetic proton beam line for radiobiology

Author

Paul R. Bolton, Mamiko Nishiuchi, T. Maeda, Kotaro Kondo, Akito Sagisaka, Shunichi Kawanishi, Masakatsu Murakami, Akifumi Yogo, Koichi Ogura, Toshihiko Hori, and Hironao Sakaki

Subjects

Physics, Nuclear and High Energy Physics, Proton, Laser, law.invention, Magnetic field, Dipole, Bunches, Beamline, law, Magnet, Physics::Accelerator Physics, Irradiation, Atomic physics, Nuclear Experiment, Instrumentation

Abstract

We report the development of a laser-driven quasi-monoenergetic proton beamline for the purpose of cell samples irradiation. Laser pulses are focused to an intensity of 5 × 10 19 W / cm 2 onto a polyimide foil target of 7.5 − μ m thickness. The emitted proton spectrum is continuous up to a maximum energy of 4 MeV. Energy selection for transport to cancer cells is determined by four pairs of dipole magnets, which consists of a pair of permanent magnets generating a central magnetic field of 0.78 T. Protons are steered by the first magnetic field, and again by the second one, such that transmitted proton trajectories in the middle of the four dipoles are shifted laterally from the target normal axis by an energy-dependent displacement. Proton energy is selected by a pinhole in this middle plane and subsequently steered downstream by the other two dipole magnets. We have obtained 2.25 MeV proton beams with an energy spread of 0.66 MeV (FWHM) and single bunch duration of 20 ns. The dose given in a single proton bunch was 0.2 Gy, hence, the single bunch dose rate is estimated to be 107 Gy/s. At the 1 Hz repetition-rate cell samples were irradiated with successive proton bunches with integrated dose levels up to 8 Gy.

Published

2011

28. Proton Generation and Terahertz Radiation from A Thin-Foil Target with A High-Intensity Laser

Author

Koshichi Nemoto, Hajime Okada, Jongmin Lee, Satoshi Orimo, Yoshiki Nakai, Shigeki Nashima, Akifumi Yogo, Michiaki Mori, Akito Sagisaka, Yuji Oishi, Atsushi Akutsu, Shuji Kondo, Il Woo Choi, Hiromitsu Kiriyama, Hiroyuki Daido, Manabu Tanoue, Alexander S. Pirozhkov, Seong Ku Lee, Mamiko Nishiuchi, Shuhei Kanazawa, Jinglong Ma, Hideo Nagatomo, Makoto Hosoda, Koichi Ogura, Sergei V. Bulanov, Tomohiro Motomura, Timur Zh. Esirkepov, Kiminori Kondo, and Takuya Shimomura

Subjects

Materials science, Proton, business.industry, Terahertz radiation, Plasma, Laser, Electromagnetic radiation, law.invention, Interferometry, Optics, law, business, FOIL method, Intensity (heat transfer)

Published

2010

29. High-intensity laser-driven particle and electromagnetic wave sources for science, industry, and medicine

Author

Yoshiki Nakai, Shuji Kondo, Akifumi Yogo, Sergei V. Bulanov, Koshichi Nemoto, Timur Zh. Esirkepov, Hajime Okada, Satoshi Orimo, Manabu Tanoue, Yuji Oishi, Koichi Ogura, Takuya Shimomura, Shuhei Kanazawa, Tetsuya Kawachi, Hiroyuki Daido, Alexander S. Pirozhkov, Seong Ku Lee, Atsushi Akutsu, Mamiko Nishiuchi, Makoto Hosoda, Il Woo Choi, Shigeki Nashima, Michiaki Mori, Akito Sagisaka, Hiromitsu Kiriyama, Tomohiro Motomura, Jinglong Ma, Hideo Nagatomo, and Jongmin Lee

Subjects

Physics, Terahertz radiation, business.industry, Far-infrared laser, Physics::Optics, Pulse duration, Radiation, Laser, Electromagnetic radiation, Electronic, Optical and Magnetic Materials, law.invention, Pulse (physics), Optics, law, Harmonics, Physics::Accelerator Physics, Optoelectronics, Electrical and Electronic Engineering, business

Abstract

We simultaneously observed both the fast proton generation and terahertz (THz) radiation in the laser pulse interaction with a thin-foil target. The maximum proton energy of ∼2.3 MeV and an intense THz radiation were observed at the pulse duration of ∼30 fs. We also measured the proton beam and UV harmonics from a thin-foil target by changing the laser pulse duration. In the case of the ∼500 fs, peaks of UV harmonics up to fourth order appeared. This unique combination of the multiple beams will provide useful applications such as pump-probe experiments.

Published

2009

30. Development of Laser-driven Proton Source Toward Its Applications

Author

Koichi Ogura, Jinglong Ma, Hideo Nagatomo, Satoshi Orimo, Takuya Nayuki, Takashi Fujii, Yuji Oishi, Akifumi Yogo, Sergei V. Bulanov, Hiroyuki Daido, Alexander S. Pirozhkov, Akito Sagisaka, Koshichi Nemoto, Michiaki Mori, Mamiko Nishiuchi, and Timur Zh. Esirkepov

Subjects

Materials science, Proton, Nuclear Theory, chemistry.chemical_element, Shadowgraphy, Laser, Copper, Atomic and Molecular Physics, and Optics, Computer Science::Other, law.invention, chemistry, law, Physics::Accelerator Physics, Development (differential geometry), Atomic physics, Nuclear Experiment, Polyimide, Beam (structure), Energy (signal processing)

Abstract

We observe the proton signals produced by laser interaction with thin-foil targets of polyimide and of copper. We change the thickness of the polyimide target to $7.5{\mu}m$ , $12.5{\mu}m$ , and $50{\mu}m$ . High-energy protons with the maximum energy of ${\sim}2.3\;MeV$ from $7.5{\mu}m$ thick polyimide are observed. This proton beam with the maximum energy of multi-MeV has various applications such as a proton shadowgraphy.

Published

2009

31. Control of laser-accelerated proton beams by modifying the target density with ASE

Author

Mamiko Nishiuchi, Yoshiki Nakai, Manabu Tanoue, Hideo Nagatomo, Takuya Shimomura, Koichi Ogura, Shuhei Kanazawa, Paul R. Bolton, S. V. Bulanov, Akito Sagisaka, A. Akutsu, Tomohiro Motomura, S. Orimo, Alexander S. Pirozhkov, Michiyasu Mori, Akifumi Yogo, Hiromitsu Kiriyama, S. Kondo, Hajime Okada, Hiroyuki Daido, and T. Zh. Esirkepov

Subjects

Amplified spontaneous emission, Materials science, Proton, Plasma, Laser, Atomic and Molecular Physics, and Optics, law.invention, Particle acceleration, Orders of magnitude (time), law, Physics::Accelerator Physics, Spontaneous emission, Atomic physics, Beam (structure)

Abstract

We demonstrate laser-ion acceleration from a near-critical density plasma, using amplified spontaneous emission (ASE) to convert a solid foil target into a lower-density target. In order to investigate the target density dependence of the laser-ion acceleration, two cases were investigated for which the ASE intensity differed by three orders of magnitude. In the low contrast case the beam centre for higher energy protons is shifted closer to the laser-propagation direction of 45○, while the centre of lower-energy beam remains near the target normal direction. We show that a near-critical density plasma can be used to control proton beam direction based on its energy.

Published

2009

32. Characteristics of a laser-produced proton beam improved by a synchronous RF field

Author

Yoshihisa Iwashita, Akira Noda, Hikaru Souda, Mamiko Nishiuchi, Shuji Kondo, Hiromitsu Kiriyama, H. Sugiyama, Akito Sagisaka, Hiroyuki Daido, Toshiyuki Shirai, Atsushi Akutsu, Akihisa Wakita, Yoshiki Nakai, Michiaki Mori, Alexander S. Pirozhkov, Tomohiro Motomura, Hiromu Tongu, Satoshi Orimo, Jinglong Ma, Koichi Ogura, Manabu Tanoue, Takuya Shimomura, Hiroshi Okada, Shuhei Kanazawa, Akifumi Yogo, and M. Ikegami

Subjects

Physics, Nuclear and High Energy Physics, Proton, business.industry, Laser, Synchrotron, law.invention, Pulsed laser deposition, Acceleration, Optics, law, Electric field, Physics::Accelerator Physics, Laser beam quality, Atomic physics, business, Instrumentation, Beam (structure)

Abstract

We have succeeded to compress the energy spread of a laser-produced proton beam to 1.6% at FWHM by an RF electric field synchronous to the pulse laser. Protons generated by this laser originally had a continuous energy spectrum with no peaks. Radial focusing and defocusing effects caused by the transverse component of the RF field were also observed. Concerning these effects, we simulated the energy spectra from the calculated value of the electric field by POISSON; the simulation could almost reproduce the experimental results. By applying this beam as an injection beam of a synchrotron, a compact acceleration system for particle cancer therapy is expected to be realized.

Published

2009

33. Ion Acceleration Using Temporally-Controlled High-Intensity Laser Pulses

Author

Shuji Kondo, Toshiyuki Shirai, Atsushi Akutsu, Takashi Fujii, Hiromitsu Kiriyama, Sergei V. Bulanov, Yoshihisa Iwashita, Paul R. Bolton, Akifumi Yogo, Manabu Tanoue, Satoshi Orimo, Hiroyuki Daido, Mamiko Nishiuchi, Michiaki Mori, Akihito Sagisaka, Akira Noda, Takuya Nayuki, Timur Zh. Esirkepov, Alexander S. Pirozhkov, Koshichi Nemoto, Shu Nakamura, Hajime Okada, Takuya Shimomura, Koichi Ogura, Shuhei Kanazawa, Tomohiro Motomura, Yushi Oishi, Hideo Nagatomo, and Yoshiki Nakai

Subjects

Electron density, Materials science, business.industry, Superradiance, Plasma, Ion acceleration, Laser, Plasma acceleration, law.invention, Acceleration, Optics, law, Stimulated emission, business

Published

2009

34. A Novel Technique for Monitoring the Reproducibility of Laser Tape-Target Interactions Using an X-ray Pinhole Camera

Author

Satoshi Orimo, Koshichi Nemoto, Koichi Ogura, Hiroyuki Daido, Shu Nakamura, Takuya Nayuki, Yoshihisa Iwashita, Sergei V. Bulanov, Akifumi Yogo, Masataka Kado, A. Fukumi, Yuji Oishi, Akito Sagisaka, Michiaki Mori, Zhong Li, Mamiko Nishiuchi, Takashi Fujii, Yukio Hayashi, and Akira Noda

Subjects

Physics, Novel technique, Reproducibility, business.industry, X-ray, Surfaces and Interfaces, Laser, law.invention, Optics, law, Pinhole camera, General Materials Science, business, Instrumentation, Spectroscopy

Published

2009

35. New Method to Measure the Rise Time of a Fast Pulse Slicer for Laser Ion Acceleration Research

Author

A. Akutsu, Hiroyuki Daido, Akira Noda, Koshichi Nemoto, T. Shirai, Yuji Oishi, Shu Nakamura, Yoshihisa Iwashita, Akifumi Yogo, Do-Kyeong Ko, Shuhei Kanazawa, Jongmin Lee, Akito Sagisaka, Manabu Tanoue, Mamiko Nishiuchi, Satoshi Orimo, Timur Zh. Esirkepov, Takuya Nayuki, Takashi Fujii, Takuya Shimomura, Yoshiki Nakai, Yoichi Yamamoto, Jinglong Ma, Toyoaki Kimura, S.V. Bulanov, Koichi Ogura, Hiromitsu Kiriyama, Paul R. Bolton, S. Kondo, Tae Jun Yu, Il Woo Choi, and Michiaki Mori

Subjects

Nuclear and High Energy Physics, Amplified spontaneous emission, Materials science, business.industry, Physics::Optics, Condensed Matter Physics, Kinetic energy, Laser, Pulse (physics), law.invention, Particle acceleration, Optics, law, Rise time, Chirp, Spontaneous emission, Atomic physics, business

Abstract

A dependence of cutoff proton kinetic energy on laser prepulse duration has been observed. Amplified spontaneous emission pedestal duration is controlled by a fast electrooptic pulse slicer where the rise time is estimated to be 130 ps. We demonstrate a new correlated spectral technique for determining this rise time using a stretched frequency-chirped pulse.

Published

2008

36. Simultaneous Generation of UV Harmonics and Protons From a Thin-Foil Target With a High-Intensity Laser

Author

K. Nemoto, Y. Oishi, Koichi Ogura, Satoshi Orimo, Takuya Nayuki, Alexander S. Pirozhkov, Akifumi Yogo, S. V. Bulanov, Tetsuya Kawachi, Michiaki Mori, Takashi Fujii, Hiroyuki Daido, Akito Sagisaka, Jinglong Ma, Hideo Nagatomo, Mamiko Nishiuchi, and T. Zh. Esirkepov

Subjects

Nuclear and High Energy Physics, Amplified spontaneous emission, Materials science, Proton, business.industry, Plasma, Condensed Matter Physics, Laser, law.invention, Optics, law, Harmonics, Physics::Accelerator Physics, Spontaneous emission, Plasma diagnostics, Irradiation, Atomic physics, Nuclear Experiment, business

Abstract

We observe UV harmonics and protons with a 7.5-mum-thick polyimide target irradiated with a high-intensity Ti:sapphire laser. The laser intensity dependence of UV harmonics and proton signal is measured by varying the distance between the target surface and the best focus of the laser beam. In the case of appropriate condition for proton generation with a maximum energy of ~2.7 MeV, the weak broad spectrum in the UV region is generated. The UV harmonics of up to the fourth order are generated as the target is moved away from the best focus position. In this condition, the maximum energy of protons is reduced to ~1 MeV. The simultaneous generation of the harmonics and protons is observed at the amplified spontaneous emission intensities between ~5 times 1011 and ~5 times 1012 W/cm2.

Published

2008

37. The Current Status of the J-KAREN Laser Upgrade

Author

Koichi Ogura, Maki Kishimoto, Makoto Asakawa, Mamiko Nishiuchi, Kiminori Kondo, Yukio Hayashi, Masato Kanasaki, Kentaro Sekiguchi, Hideyuki Kotaki, Masaki Kando, Sergei V. Bulanov, Yasuhiro Miyasaka, Hirotaka Tanaka, Timur Zh. Esirekepov, Alexander S. Pirozhkov, Akito Sagisaka, Michiaki Mori, Yuji Mashiba, Yuji Fukuda, Hironao Sakaki, James Koga, Hiromitsu Kiriyama, and Akira Kon

Subjects

Materials science, business.industry, 02 engineering and technology, Laser, 01 natural sciences, Deformable mirror, law.invention, 020210 optoelectronics & photonics, Quality (physics), Upgrade, law, 0103 physical sciences, Broadband, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Current (fluid), 010306 general physics, business, Laser beams

Abstract

We report recent advances on the J-KAREN laser upgrade to provide an intensity capacity surpassing 1022 W/cm2 at 0.1 Hz. Currently, the high-spatiotemporal quality broadband pulses are amplified to over 55 J at 0.1 Hz.

Published

2016

38. Protons and electrons generated from a 5-μm thick copper tape target irradiated by s-, circularly-, and p-polarized 55-fs laser pulses

Author

Jae Hee Sung, Akifumi Yogo, Akira Noda, Il Woo Choi, Yuji Oishi, Koshichi Nemoto, Mamiko Nishiuchi, Z. Li, A. Fukumi, Shu Nakamura, Michiaki Mori, Akito Sagisaka, Do-Kyeong Ko, Satoshi Orimo, Takuya Nayuki, S.V. Bulanov, Koichi Ogura, Jongmin Lee, Takashi Fujii, and Hiroyuki Daido

Subjects

Physics, Proton, General Physics and Astronomy, Electron, Physics and Astronomy(all), Copper tape, Polarization (waves), Laser, Electromagnetic radiation, law.invention, law, Physics::Accelerator Physics, Irradiation, Atomic physics, Circular polarization

Abstract

The angular distribution and energy spectra of energetic protons emitted from a 5-μm thick copper tape target irradiated by p-, circularly-, and s-polarized 55-fs laser pulses with intensity of 8 – 9 × 10 18 W / cm 2 are measured. The protons are found in the rear target normal direction while the hot electrons are found in the laser propagation direction. The maximum energy of protons is equal to 1.34 MeV for p-polarized irradiation. The energy spectrum of protons depends strongly on the total amount of electrons but it does not so strongly depend on the electron angular distribution under our experiment conditions. Two-dimensional particle in cell simulations also show the maximal proton acceleration for the p-polarized pulse, less efficient acceleration for the circular polarization, and lower acceleration efficiency in the case of the s-polarization, which is related to the electron acceleration efficiency at the front side of the target.

Published

2007

39. Simultaneous Proton and X-ray Imaging with Femtosecond Intense Laser Driven Plasma Source

Author

Do-Kyeong Ko, Akira Noda, Hyung Taek Kim, S. Kondo, Koichi Ogura, Il Woo Choi, Yoshihisa Iwashita, Atsushi Akutsu, Michiaki Mori, Hiromitsu Kiriyama, Kyung-Ham Hong, Jae Hee Sung, Satoshi Orimo, Tae Moon Jeong, Koshichi Nemoto, Alexander S. Pirozhkov, Akito Sagisaka, Tae Jun Yu, Takuya Shimomura, Akifumi Yogo, Y. Nakai, Yoichi Yamamoto, Young-Chul Noh, Yuji Oishi, Jongmin Lee, Hiroyuki Daido, Toshiyuki Shirai, Shu Nakamura, Manabu Tanoue, Mamiko Nishiuchi, Shuhei Kanazawa, and Z. Li

Subjects

Physics, Physics and Astronomy (miscellaneous), Proton, business.industry, Detector, Resolution (electron density), General Engineering, General Physics and Astronomy, Plasma, Laser, law.invention, Optics, law, Femtosecond, Sapphire, business, Beam (structure)

Abstract

A laser-driven proton beam with a maximum energy of a few MeV is stably obtained using an ultra-short and high-intensity Ti:sapphire laser. At the same time, keV X-ray is also generated at almost the same place where protons are emitted. Here, we show the successful demonstration of simultaneous proton and X-ray projection images of a test sample placed close to the source with a resolution of ~10 µm, which is determined from the source sizes. Although the experimental configuration is very simple, the simultaneity is better than a few hundreds of ps. A CR-39 track detector and imaging plate, which are placed as close as possible to the CR-39, are used as detectors of protons and X-ray. The technique is applicable to the precise observation of microstructures.

Published

2007

40. High-Quality Laser-Produced Proton Beam Realized by the Application of a Synchronous RF Electric Field

Author

Akira Noda, Satoshi Orimo, Hiroyuki Daido, Toshiyuki Shirai, Hikaru Souda, Michiaki Mori, Yukio Hayashi, Sergei V. Bulanov, Hiromu Tongu, Shu Nakamura, Mamiko Nishiuchi, Akira Nagashima, Akito Sagisaka, Timur Zh. Esirkepov, A. Fukumi, Alexander S. Pirozhkov, Toyoaki Kimura, Takeshi Takeuchi, M. Ikegami, Z. Li, Masataka Kado, Yoshihisa Iwashita, Koichi Ogura, Toshiki Tajima, and Akifumi Yogo

Subjects

Physics, Physics and Astronomy (miscellaneous), Proton, business.industry, General Engineering, Analytical chemistry, General Physics and Astronomy, Laser, law.invention, Intensity (physics), Acceleration, Optics, Amplitude, law, Electric field, Laser power scaling, business, Beam (structure)

Abstract

A short-pulse (~210 fs) high-power (~1 TW) laser was focused on a tape target 3 and 5 µm in thickness to a size of 11×15 µm2 with an intensity of 3×1017 W/cm2. Protons produced by this laser with an energy spread of 100% were found to be improved to create peaks in the energy distribution with a spread of ~7% by the application of the RF electric field with an amplitude of ±40 kV synchronous to the pulsed laser. This scheme combines the conventional RF acceleration technique with laser-produced protons for the first time. It is possible to be operated up to 10 Hz, and is found to have good reproducibility for every laser shot with the capability of adjusting the peak positions by control of the relative phase between the pulsed laser and the RF electric field.

Published

2007

41. Repetitive highly collimated intense proton beam with sub-MeV energy range driven by a compact few terawatt femtosecond laser

Author

Sergei V. Bulanov, Mamiko Nishiuchi, Masataka Kado, Satoshi Orimo, A. Fukumi, Akifumi Yogo, Akira Noda, Koichi Ogura, Z. Li, Akito Sagisaka, Yukio Hayashi, Shu Nakamura, Hiroyuki Daido, and Michiaki Mori

Subjects

Materials science, Physics and Astronomy (miscellaneous), Proton, business.industry, General Engineering, General Physics and Astronomy, Shadowgraphy, Laser, Collimated light, law.invention, Optics, law, Femtosecond, Physics::Accelerator Physics, Thermal emittance, Laser beam quality, Nuclear Experiment, business, Beam (structure)

Abstract

A highly collimated sub-MeV proton beam with the divergence angle of 10 degrees is obtained during the interaction of a few terawatt pulse from a table-top Ti:sapphire laser with a thin metallic foil. This beam is used for proton shadowgraphy. The quality of the 107 laminar protons per bunch is sufficient for good quality projection imaging of a micrometer size mesh structure, giving a quantitative characterization of the proton beam, such as the transverse emittance of less than 0.1 π mm mrad. These experimental results open up a new perspective in imaging techniques.

Published

2007

42. Nonlinear increase of X-ray intensities from thin foils irradiated with a 200 TW femtosecond laser

Author

Masaharu Nishikino, S. Masuda, Kotaro Kondo, M. Kanasaki, Noboru Hasegawa, Akito Sagisaka, Ryosuke Kodama, Alexei Zhidkov, Stephanie Hansen, Koichi Ogura, Tetsuya Kawachi, Yuji Fukuda, A. Ya. Faenov, James Colgan, Tomonao Hosokai, Hironao Sakaki, Alexander S. Pirozhkov, Yukinobu Watanabe, Tatiana Pikuz, I. Yu. Skobelev, S. A. Pikuz, Mamiko Nishiuchi, Joseph Abdallah, and Masaki Kando

Subjects

Range (particle radiation), Multidisciplinary, Materials science, Plasma, Electron, Radiation, Laser, Bioinformatics, Article, Ion, law.invention, law, Femtosecond, Irradiation, Atomic physics

Abstract

We report, for the first time, that the energy of femtosecond optical laser pulses, E, with relativistic intensities I > 1021 W/cm2 is efficiently converted to X-ray radiation, which is emitted by “hot” electron component in collision-less processes and heats the solid density plasma periphery. As shown by direct high-resolution spectroscopic measurements X-ray radiation from plasma periphery exhibits unusual non-linear growth ~E4–5 of its power. The non-linear power growth occurs far earlier than the known regime when the radiation reaction dominates particle motion (RDR). Nevertheless, the radiation is shown to dominate the kinetics of the plasma periphery, changing in this regime (now labeled RDKR) the physical picture of the laser plasma interaction. Although in the experiments reported here we demonstrated by observation of KK hollow ions that X-ray intensities in the keV range exceeds ~1017 W/cm2, there is no theoretical limit of the radiation power. Therefore, such powerful X-ray sources can produce and probe exotic material states with high densities and multiple inner-shell electron excitations even for higher Z elements. Femtosecond laser-produced plasmas may thus provide unique ultra-bright X-ray sources, for future studies of matter in extreme conditions, material science studies and radiography of biological systems.

Published

2015

43. Damage-controlled high power lasers and plasma mirror application

Author

Akira Sugiyama, Mamiko Nishiuchi, Yoshihiro Ochi, Alexander S. Pirozhkov, Masaki Kando, Hiromitsu Kiriyama, Yoshiaki Kato, Kimonori Kondo, Sergei V. Bulanov, Keisuke Nagashima, Masaharu Nishikino, Ryoji Itakura, and Tetsuya Kawachi

Subjects

Chirped pulse amplification, Distributed feedback laser, Materials science, business.industry, Far-infrared laser, Ti:sapphire laser, Laser pumping, Laser, law.invention, Optics, law, Diode-pumped solid-state laser, Optoelectronics, Laser power scaling, business

Abstract

Following three different types of high power lasers at Kansai Photon Science Institute are overviewed and controlling the laser damages in these laser systems are described: (1) PW-class Ti:sapphire laser for high field science, (2) zig-zag slab Nd:glass laser for x-ray laser pumping, and (3) high-repetition Yb:YAG thin-slab laser for THz generation. Also reported is the use of plasma mirror for characterization of short-wavelength ultrashort laser pulses. This new method will be useful to study evolution of plasma formation which leads to laser damages.

Published

2015

44. Single shot third-order cross-correlator for ultra-high intensity laser

Author

Kotaro Kondo, Hiromitsu Kiriyama, Akira Kon, Koichi Ogura, Yuji Fukuda, Hironao Sakaki, Mamiko Nishiuchi, and Masaki Kando

Subjects

Physics, business.industry, High intensity, Single shot, Plasma, Laser, law.invention, Pulse (physics), Third order, Optics, Band-pass filter, law, business, Optical filter

Abstract

We have developed a multi-channel cross-correlator (MCCC) for single-shot measurement of temporal contrast of Peta-watt class laser pulse. We report experimental results with the MCCC system.

Published

2015

45. Laser-driven multicharged heavy ion beam acceleration

Author

Kenichi Imai, Hironao Sakaki, Alexander S. Pirozhkov, Hiromitsu Kiriyama, Kotaro Kondo, M. Kanasaki, Tatiana Pikuz, Mamiko Nishiuchi, Akito Sagisaka, Koichi Ogura, Masaki Kando, S. V. Bulanov, S. Nagamiya, Yukinobu Watanabe, Anatoly Ya. Faenov, Tomoya Yamauchi, Yuji Fukuda, Timur Zh. Esirkepov, and Katsuhisa Nishio

Subjects

Acceleration, Materials science, Field (physics), Mass-to-charge ratio, law, Sapphire, Atomic physics, Laser, Pulse-width modulation, Pulse (physics), law.invention, Ion

Abstract

Experimental demonstration of multi-charged heavy ion acceleration from the interaction between the ultra-intense short pulse laser system and the metal target is presented. The laser pulse of

Published

2015

46. Characterization of Thin-Foil Preformed Plasmas for High-Intensity Laser Plasma Interactions

Author

Satoshi Orimo, Akifumi Yogo, Hiroyuki Daido, Shu Nakamura, Masataka Kado, Toshiyuki Shirai, Mamiko Nishiuchi, Koichi Ogura, Yoshihisa Iwashita, Michiaki Mori, Alexander S. Pirozhkov, Akito Sagisaka, Akira Noda, and Hideo Nagatomo

Subjects

Physics, Nuclear and High Energy Physics, business.industry, High intensity, General Physics and Astronomy, General Medicine, Plasma, Laser, Characterization (materials science), law.invention, Interferometry, Optics, law, Physiology (medical), Sapphire, business, Beam (structure), FOIL method

Abstract

We observe the electron density distribution of preformed plasmas of a titanium foil target with the 400 nm probe beam as an interferometer. The preformed plasma at the front side of the target is generated by a prepulse with a high-intensity Ti:sapphire laser. On the other hand, the preformed plasma at the rear side is not observed within the region ∼18 μm away from the original surface. The characterization of preformed plasmas will contribute to describe the high-intensity laser and thin-foil interactions.

Published

2006

47. The laser proton acceleration in the strong charge separation regime

Author

Yoshihisa Iwashita, Koshichi Nemoto, Shu Nakamura, Timur Zh. Esirkepov, Takashi Fujii, T. Shirai, Satoshi Orimo, S.V. Bulanov, Yukio Hayashi, Hiroyuki Daido, Koichi Ogura, Michiaki Mori, Akito Sagisaka, Yuji Oishi, A. Fukumi, Z. Li, Mamiko Nishiuchi, Masataka Kado, Takuya Nayuki, and Akira Noda

Subjects

Physics, SIMPLE (dark matter experiment), Proton, Tantalum, General Physics and Astronomy, chemistry.chemical_element, Laser, law.invention, Intensity (physics), Acceleration, chemistry, law, Physics::Accelerator Physics, Irradiation, Atomic physics, Energy (signal processing)

Abstract

We report the experimental results of proton acceleration as well as the simple one-dimensional model which explains our experimental data. The proton acceleration experiment is carried out with a TW short pulse laser irradiated on a tantalum thin-foil target (3 μm thickness) with an intensity of ∼ 3 × 10 18 W cm −2 . Accelerated protons exhibit a typical energy spectrum with two quasi-Maxwellian components with a high energy cut-off. We can successfully explain the higher energy part as well as the cut off energy of the proton spectrum with the simple-one-dimensional model based on the strong charge separation regime, which is the extension of the model proposed originally by [M. Passoni et al., Phys. Rev. E 69 (2004) 026411].

Published

2006

48. Real-Time Optimization of Proton Production by Intense Short-Pulse Laser with Time-of-Flight Measurement

Author

Yoshio Wada, Koichi Ogura, Akira Noda, Satoshi Orimo, Yoshihisa Iwashita, Masataka Kado, A. Fukumi, Akito Sagisaka, Z. Li, Yukio Hayashi, Mamiko Nishiuchi, Hiromu Tongu, Michiaki Mori, Akifumi Yogo, Shu Nakamura, Hiroyuki Daido, and Toshiyuki Shirai

Subjects

Physics, Physics and Astronomy (miscellaneous), Proton, business.industry, General Engineering, General Physics and Astronomy, Electron, Plasma, Scintillator, Laser, law.invention, Time of flight, Optics, law, Shot (pellet), Scintillation counter, Nuclear Experiment, business

Abstract

A scheme of the real-time optimization of proton production by an intense short-pulse laser interacting with a foil target was developed using a time-of-flight measurement with a plastic scintillator. Owing to special treatments, the detection of protons using a scintillation counter has become possible under heavy backgrounds such as laser light itself, laser-generated hard X-ray, self-emission light, and electrons from the laser-produced plasma. With such a real-time measurement of protons, the energy spectrum of protons could be obtained shot by shot, and the experimental conditions for optimal proton production could be determined very efficiently.

Published

2006

49. Development of beam-pointing stabilizer on a 10-TW Ti:Al2O3 laser system JLITE-X for laser-excited ion accelerator research

Author

Akito Sagisaka, Koichi Ogura, Masataka Kado, A. Fukumi, Alexander S. Pirozhkov, Michiaki Mori, Satoshi Orimo, Z. Li, Yukio Hayashi, Mamiko Nishiuchi, and Hiroyuki Daido

Subjects

Materials science, business.industry, Condensed Matter Physics, Stabilizer (aeronautics), Laser, Beam parameter product, Industrial and Manufacturing Engineering, Atomic and Molecular Physics, and Optics, Ion, law.invention, Optics, law, Sapphire, Laser beam quality, Photonics, business, Instrumentation, Beam (structure)

Abstract

We developed a beam-pointing stabilizer for a 10-TW Ti:sapphire laser system to study laser-induced ion acceleration. We confirmed the improvement in the laser beam pointing stability by using a 10-TW laser system (we call it JLITE-X) at JAERI-APRC. The original long-term pointing stability on a 10-TW laser system is ∼70 μrad without beam stabilizing. By using a beam-pointing stabilizer, the laser beam stability was improved within 10 μrad. If f/1 focusing optics and a target which is tilted 45° to the target normal is used, the fluctuation of the laser intensity at the focus will be improved from 80% without stabilizing to

Published

2006

50. Development of a two-color interferometer for observing wide range electron density profiles with a femtosecond time resolution

Author

Shu Nakamura, Yuji Oishi, Mamiko Nishiuchi, Akifumi Yogo, Takashi Fujii, Akira Noda, Satoshi Orimo, Il Woo Choi, A. Fukumi, Jae Hee Sung, Alexander S. Pirozhkov, Michiaki Mori, Jongmin Lee, Takuya Nayuki, Yukio Hayashi, Koshichi Nemoto, Hiroyuki Daido, Akito Sagisaka, Z. Li, Masataka Kado, Do-Kyeong Ko, and Koichi Ogura

Subjects

Electron density, Materials science, Physics and Astronomy (miscellaneous), business.industry, General Engineering, Physics::Optics, General Physics and Astronomy, Plasma, Electron, Laser, law.invention, Ion, Interferometry, Optics, law, Femtosecond, Plasma diagnostics, business

Abstract

A two-color interferometer for preformed plasma characterization is developed. We observe the electron density distribution of preformed plasmas on a 5 μm-thick copper target irradiated with a high-intensity Ti:sapphire laser. The two-color interferometer extended the observable electron density region using a fundamental (800 nm) probe beam to cover the lower density region and a second harmonic (400 nm) probe beam to cover the higher density region, simultaneously. This characterization of the electron density distribution of preformed plasmas with femtosecond time resolution significantly contributes to the understanding of high-intensity laser–thin-foil interactions during high-energy electron, ion, and X-ray generation.

Published

2006